CN112722164A - Control method and system of invisible bed - Google Patents

Abstract

The invention relates to the technical field of furniture, in particular to a control method and a control system of an invisible bed. Judging whether the first induction signal and the second induction signal are received within a preset time period through the controller, if so, simultaneously sending a first control signal to the vacuum-pumping machine and the air purifier, so that the vacuumizing machine starts to vacuumize the interior of the cabinet body, the air purifier starts to inject dehumidified and desalted air into the interior of the cabinet body, namely, the vacuumizer starts to dehumidify and desalt, and the air purifier injects the dehumidified and desalt air, which is beneficial to quickly processing the air in the cabinet body, and by detecting the humidity and the salt content of the air in the cabinet body in real time, if the detected humidity and the salt content are both in the respective corresponding preset ranges, sending a second control signal to the vacuum-pumping machine and the air purifier to control the vacuum-pumping machine and the air purifier to stop running, thereby can promote the use quality of setting up the stealthy bed on the cargo ship, be favorable to promoting user experience.

Description

Control method and system of invisible bed

Technical Field

The invention relates to the technical field of furniture, in particular to a control method and a control system of an invisible bed.

Background

The invisible bed is also called a wall bed and a turnover bed, the invisible bed is a bed arranged on a wall, the appearance is like a wardrobe in normal times, the cabinet door is turned down when sleeping, the invisible bed is a standard spring mattress, 92% of families need two purposes, and the invisible bed is a product perfectly combining secondary lying-study room, sitting room-sitting room.

The space on the cargo ship is limited, and if the invisible bed is applied to the cargo ship, the space of a cabin can be effectively reduced, but the cargo ship runs in a high-humidity high-salt fog environment all the year round, the invisible bed is easy to damp, and the like, so that good experience is difficult to bring to crews.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the control method and the control system for the invisible bed are beneficial to improving user experience.

In order to solve the technical problems, the invention adopts a technical scheme that:

a control method of an invisible bed comprises the following steps:

s1, judging whether the first induction signal and the second induction signal are received within a preset time length by the controller; the invisible bed is arranged in a cabin of a cargo ship, the invisible bed comprises a cabinet body and a bed body, the side wall of the cabinet body is provided with an opening, one side edge of the bed body is connected with the inner side wall of the cabinet body through a hinge structure, the hinge structure comprises an air cylinder and a sliding assembly, the sliding assembly comprises a sliding rail and a sliding block which is arranged in the sliding rail and can slide along the sliding rail, the sliding rail is horizontally arranged on one side edge of the bed body, the fixed end of the air cylinder is hinged with the inner side wall of the cabinet body, and the telescopic end of the air cylinder is hinged; a first light touch switch is arranged on the position, corresponding to the air cylinder, of the inner side wall of the cabinet body, when the bed body is accommodated, the distance between the air cylinder and the inner side wall of the cabinet body is smaller than the triggering distance of the first light touch switch, a groove is formed in the edge of the cabinet body, corresponding to the opening, a second light touch switch is arranged in the groove, a protrusion matched with the groove is arranged on the edge of the bed body, and the protrusion is in contact with the second light touch switch when located in the groove; the first light touch switch and the second light touch switch are respectively electrically connected with the controller;

s2, if yes, sending a first control signal to the vacuumizing machine and the air purifier simultaneously so that the vacuumizing machine starts to vacuumize the inside of the cabinet body, and the air purifier starts to inject dehumidified and desalted air into the inside of the cabinet body;

and S3, detecting the humidity and the salt content of the air in the cabinet body in real time, and if the detected humidity and the salt content are both in the respective corresponding preset ranges, sending a second control signal to the vacuum-pumping machine and the air purifier to control the vacuum-pumping machine and the air purifier to stop running.

The invention adopts another technical scheme that:

a control system for a hidden bed comprises one or more processors and a memory, wherein the memory stores a program, and the program can realize all the steps of the control method for the hidden bed when being executed by the processors.

The invention has the beneficial effects that:

the invention provides a control method and a system of an invisible bed, which judge whether a first induction signal and a second induction signal are received within a preset time period through a controller, if so, the invisible bed is in a containing state, at the moment, the first control signal is simultaneously sent to a vacuumizing machine and an air purifier so that the vacuumizing machine starts to vacuumize the interior of a cabinet body, the air purifier starts to inject dehumidified and desalted air into the interior of the cabinet body, namely, the vacuumizing machine starts to dehumidify and desalt, the air purifier injects the dehumidified and desalted air so as to be beneficial to rapidly processing the air in the cabinet body, and by detecting the humidity and the salt content of the air in the cabinet body in real time, if the detected humidity and the salt content are both in respective corresponding preset ranges, the second control signal is sent to the vacuumizing machine and the air purifier so as to control the vacuumizing machine and the air purifier to stop operating, thereby can promote the use quality of setting up the stealthy bed on the cargo ship, be favorable to promoting user experience.

Drawings

FIG. 1 is a flow chart illustrating the steps of the method for controlling the hidden bed of the present invention;

FIG. 2 is a schematic structural diagram of a control system of the invisible bed of the present invention;

description of reference numerals:

1. a processor; 2. a memory.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1, the method for controlling an invisible bed provided by the present invention includes the following steps:

s1, judging whether the first induction signal and the second induction signal are received within a preset time length by the controller; the invisible bed is arranged in a cabin of a cargo ship, the invisible bed comprises a cabinet body and a bed body, the side wall of the cabinet body is provided with an opening, one side edge of the bed body is connected with the inner side wall of the cabinet body through a hinge structure, the hinge structure comprises an air cylinder and a sliding assembly, the sliding assembly comprises a sliding rail and a sliding block which is arranged in the sliding rail and can slide along the sliding rail, the sliding rail is horizontally arranged on one side edge of the bed body, the fixed end of the air cylinder is hinged with the inner side wall of the cabinet body, and the telescopic end of the air cylinder is hinged; a first light touch switch is arranged on the position, corresponding to the air cylinder, of the inner side wall of the cabinet body, when the bed body is accommodated, the distance between the air cylinder and the inner side wall of the cabinet body is smaller than the triggering distance of the first light touch switch, a groove is formed in the edge of the cabinet body, corresponding to the opening, a second light touch switch is arranged in the groove, a protrusion matched with the groove is arranged on the edge of the bed body, and the protrusion is in contact with the second light touch switch when located in the groove; the first light touch switch and the second light touch switch are respectively electrically connected with the controller; the first induction signal is generated when a first light touch switch is triggered, and the second induction signal is generated when a second light touch switch is triggered;

s2, if yes, sending a first control signal to the vacuumizing machine and the air purifier simultaneously so that the vacuumizing machine starts to vacuumize the inside of the cabinet body, and the air purifier starts to inject dehumidified and desalted air into the inside of the cabinet body;

and S3, detecting the humidity and the salt content of the air in the cabinet body in real time, and if the detected humidity and the salt content are both in the respective corresponding preset ranges, sending a second control signal to the vacuum-pumping machine and the air purifier to control the vacuum-pumping machine and the air purifier to stop running.

From the above description, the beneficial effects of the present invention are:

the invention provides a control method of an invisible bed, which judges whether a first induction signal and a second induction signal are received within a preset time period or not through a controller, if so, the invisible bed is in a containing state, at the moment, the first control signal is simultaneously sent to a vacuumizing machine and an air purifier so that the vacuumizing machine starts to vacuumize the interior of a cabinet body, the air purifier starts to inject dehumidified and desalted air into the interior of the cabinet body, namely, the vacuumizing machine starts to dehumidify and desalt, the air purifier injects the dehumidified and desalted air so as to be beneficial to quickly processing the air in the cabinet body, and the humidity and salt content of the air in the cabinet body are detected in real time, if the detected humidity and salt content are within respective corresponding preset ranges, the second control signal is sent to the vacuumizing machine and the air purifier so as to control the vacuumizing machine and the air purifier to stop operating, thereby can promote the use quality of setting up the stealthy bed on the cargo ship, be favorable to promoting user experience.

Further, step S3 further includes:

and timing the running time of the air purifier to obtain corresponding timing time, and if the timing time reaches a preset threshold value, sending a second control signal to the air purifier to stop the air purifier from running.

As can be seen from the above description, by providing the treated air quantitatively at regular time, since the air purifier needs to be powered and the electric power of the ship is limited when the cargo ship is underway, the load of the air purifier can be reduced by the quantitative supply, which is beneficial to sustainable use.

Further, step S1 is preceded by:

the controller judges whether input data collected by a collecting terminal is received or not; the two or more invisible beds are arranged in the same cabin, and each invisible bed is provided with an acquisition terminal;

and if the condition is met, sending an accommodating control signal to a controlled end of the air cylinder to control the switching of the invisible bed between the accommodating state and the unfolding state.

It can be known from the above description that two above stealthy beds set up in same cabin for stealthy bed arranges a public environment in jointly, and through above-mentioned mode, the authority management to stealthy bed is realized, and only has passed through authentication, the cylinder just can be triggered, thereby the bed body of stealthy bed just can be opened and can be used, otherwise will lock at the cabinet internally, thereby avoids being used by other crews in public environment.

Further, if the input data is face data, the preset threshold data is preset face threshold data;

the method for comparing the input data with the preset threshold value data comprises the following steps:

and calculating the matching degree of the face data and the preset face threshold value data to obtain a corresponding face matching value, wherein if the face matching value is greater than a first preset threshold value, the comparison result is in accordance with the condition.

As can be seen from the above description, the face recognition function is implemented in the above manner.

Further, if the input data is voice data, the preset threshold data is preset voice threshold data; the preset voice threshold data comprise preset character threshold data and preset voiceprint threshold data;

the method for comparing the input data with the preset threshold value data comprises the following steps:

analyzing the voice data to obtain corresponding text data and voiceprint data;

calculating the matching degree of the character data and preset character threshold data to obtain a corresponding character matching value; meanwhile, calculating the matching degree of the voiceprint data and preset voiceprint threshold data to obtain a corresponding voiceprint matching value;

and if the character matching value is greater than a second preset threshold value and the voiceprint matching value is greater than a third preset threshold value, the comparison result is in accordance with the condition.

As can be seen from the above description, in the above manner, the voice recognition function is implemented.

Further, if the input data is digital password data, the preset threshold data is preset digital password data;

the method for comparing the input data with the preset threshold value data comprises the following steps:

and judging whether the digital password data is the same as the preset digital password data or not, if so, judging that the comparison result is in accordance with the condition.

As can be seen from the above description, in the above manner, the password identification function is implemented.

Further, if the input data is fingerprint data, the preset threshold data is preset fingerprint data;

the method for comparing the input data with the preset threshold value data comprises the following steps:

and calculating the matching degree of the fingerprint data and preset fingerprint data, and if the calculated matching degree is greater than a fourth preset threshold, determining that the comparison result is in accordance with the condition.

As can be seen from the above description, in the above manner, the fingerprint recognition function is implemented.

Referring to fig. 2, the present invention further provides a control system for an invisible bed, including one or more processors 1 and a memory 2, where the memory 2 stores a program, and the program, when executed by the processor 1, can implement all the steps included in the control method for an invisible bed.

Referring to fig. 1, a first embodiment of the present invention is:

in the embodiment, the invisible beds are arranged in the hold of the cargo ship, more than two invisible beds are arranged in the same hold, and each invisible bed is provided with an acquisition terminal;

the invisible bed comprises a cabinet body and a bed body, wherein the side wall of the cabinet body is provided with an opening, one side edge of the bed body is connected with the inner side wall of the cabinet body through a hinge structure, the hinge structure comprises an air cylinder and a sliding assembly, the sliding assembly comprises a sliding rail and a sliding block which is arranged in the sliding rail and can slide along the sliding rail, the sliding rail is horizontally arranged on one side edge of the bed body, the fixed end of the air cylinder is hinged with the inner side wall of the cabinet body, and the telescopic end of the air cylinder is hinged with the; a first light touch switch is arranged on the position, corresponding to the air cylinder, of the inner side wall of the cabinet body, when the bed body is accommodated, the distance between the air cylinder and the inner side wall of the cabinet body is smaller than the triggering distance of the first light touch switch, a groove is formed in the edge of the cabinet body, corresponding to the opening, a second light touch switch is arranged in the groove, a protrusion matched with the groove is arranged on the edge of the bed body, and the protrusion is in contact with the second light touch switch when located in the groove; the first light touch switch and the second light touch switch are respectively electrically connected with the controller;

the invention provides a control method of an invisible bed, which comprises the following steps:

s0, the controller judges whether input data collected by a collecting terminal is received;

and if the condition is met, sending an accommodating control signal to a controlled end of the air cylinder to control the switching of the invisible bed between the accommodating state and the unfolding state.

S01, if the input data are face data, the preset threshold data are preset face threshold data;

the method for comparing the input data with the preset threshold value data comprises the following steps:

and calculating the matching degree of the face data and the preset face threshold value data to obtain a corresponding face matching value, wherein if the face matching value is greater than a first preset threshold value, the comparison result is in accordance with the condition. In the present embodiment, the first preset threshold is 85% or more, preferably 90%.

S02, if the input data is voice data, the preset threshold data is preset voice threshold data; the preset voice threshold data comprise preset character threshold data and preset voiceprint threshold data;

the method for comparing the input data with the preset threshold value data comprises the following steps:

analyzing the voice data to obtain corresponding text data and voiceprint data;

calculating the matching degree of the character data and preset character threshold data to obtain a corresponding character matching value; meanwhile, calculating the matching degree of the voiceprint data and preset voiceprint threshold data to obtain a corresponding voiceprint matching value;

and if the character matching value is greater than a second preset threshold value and the voiceprint matching value is greater than a third preset threshold value, the comparison result is in accordance with the condition. In the present embodiment, the second preset threshold is 90% or more, preferably 95%. The third preset threshold is 80% or more, preferably 85%.

S03, if the input data is digital password data, the preset threshold data is preset digital password data;

the method for comparing the input data with the preset threshold value data comprises the following steps:

and judging whether the digital password data is the same as the preset digital password data or not, if so, judging that the comparison result is in accordance with the condition.

S04, if the input data is fingerprint data, the preset threshold data is preset fingerprint data;

the method for comparing the input data with the preset threshold value data comprises the following steps:

and calculating the matching degree of the fingerprint data and preset fingerprint data, and if the calculated matching degree is greater than a fourth preset threshold, determining that the comparison result is in accordance with the condition. In the present embodiment, the fourth preset threshold is 80% or more, preferably 85%.

The above steps S01, S02, S03 and S04 may exist alone, or may be combined two by two, or even all. In the present embodiment, any two modes are preferably combined.

S1, judging whether the first induction signal and the second induction signal are received within a preset time length by the controller; the first induction signal is generated when a first light touch switch is triggered, and the second induction signal is generated when a second light touch switch is triggered; the first sensing signal and the second sensing signal are both high level signals. In order to improve the recognition accuracy and prevent erroneous judgment, a level signal of a specific waveform lasting for a certain period of time or period may be set, such as a square wave signal lasting for 50ms (including at least two periods), and a sawtooth wave signal lasting for 50ms (including at least two periods).

S2, if yes, sending a first control signal to the vacuumizing machine and the air purifier simultaneously so that the vacuumizing machine starts to vacuumize the inside of the cabinet body, and the air purifier starts to inject dehumidified and desalted air into the inside of the cabinet body;

in this embodiment, the hardware structure corresponding to the above steps is: the internal side wall of the cabinet body is provided with a vacuumizing port, and the vacuumizing port is communicated with an external vacuumizing machine through a channel embedded in the internal side wall of the cabinet body by adopting the existing hardware, such as a common 51 single chip microcomputer or an embedded chip (ARM series).

And S3, detecting the humidity and the salt content of the air in the cabinet body in real time, and if the detected humidity and the salt content are both in the respective corresponding preset ranges, sending a second control signal to the vacuum-pumping machine and the air purifier to control the vacuum-pumping machine and the air purifier to stop running. In this embodiment, the second control signal may be sent to the vacuum extractor and the air purifier at the same time, or may be sent to the vacuum extractor first, and then sent to the air purifier to operate after the vacuum extractor operates for a period of time.

In this embodiment, the hardware structure corresponding to the above steps is: the cabinet is characterized in that a humidity sensor and a salt content meter are arranged on the inner side wall of the cabinet body, the salt content meter measures by sucking air in the cabinet into the cabinet, and the existing salt content meter can be used. The humidity sensor and the salinity meter are respectively and electrically connected with the controller, and the controller is also provided with a memory for storing all preset threshold values in the scheme.

Step S3 further includes:

and timing the running time of the air purifier to obtain corresponding timing time, and if the timing time reaches a preset threshold value, sending a second control signal to the air purifier to stop the air purifier from running. The preset threshold is 1 minute.

In summary, according to the control method and system for the hidden bed provided by the present invention, the controller determines whether the first sensing signal and the second sensing signal are received within the preset time period, if yes, the hidden bed is in the accommodating state, at this time, the first control signal is sent to the vacuum extractor and the air purifier at the same time, so that the vacuum extractor starts to perform the vacuum-pumping operation on the inside of the cabinet, the air purifier starts to inject the dehumidified and desalted air into the inside of the cabinet, i.e., the vacuum extractor starts to dehumidify and desalt, and the air purifier injects the dehumidified and desalted air, so as to facilitate the rapid processing of the air in the cabinet, and by detecting the humidity and salt content rate of the air in the cabinet in real time, if the detected humidity and salt content rate are within the respective preset ranges, the second control signal is sent to the vacuum extractor and the air purifier to control the vacuum extractor and the air purifier to stop operating, thereby can promote the use quality of setting up the stealthy bed on the cargo ship, be favorable to promoting user experience.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims (8)

1. A control method of an invisible bed is characterized by comprising the following steps:

s1, judging whether the first induction signal and the second induction signal are received within a preset time length by the controller; the invisible bed is arranged in a cabin of a cargo ship, the invisible bed comprises a cabinet body and a bed body, the side wall of the cabinet body is provided with an opening, one side edge of the bed body is connected with the inner side wall of the cabinet body through a hinge structure, the hinge structure comprises an air cylinder and a sliding assembly, the sliding assembly comprises a sliding rail and a sliding block which is arranged in the sliding rail and can slide along the sliding rail, the sliding rail is horizontally arranged on one side edge of the bed body, the fixed end of the air cylinder is hinged with the inner side wall of the cabinet body, and the telescopic end of the air cylinder is hinged; a first light touch switch is arranged on the position, corresponding to the air cylinder, of the inner side wall of the cabinet body, when the bed body is accommodated, the distance between the air cylinder and the inner side wall of the cabinet body is smaller than the triggering distance of the first light touch switch, a groove is formed in the edge of the cabinet body, corresponding to the opening, a second light touch switch is arranged in the groove, a protrusion matched with the groove is arranged on the edge of the bed body, and the protrusion is in contact with the second light touch switch when located in the groove; the first light touch switch and the second light touch switch are respectively electrically connected with the controller; the first induction signal is generated when a first light touch switch is triggered, and the second induction signal is generated when a second light touch switch is triggered;

s2, if yes, sending a first control signal to the vacuumizing machine and the air purifier simultaneously so that the vacuumizing machine starts to vacuumize the inside of the cabinet body, and the air purifier starts to inject dehumidified and desalted air into the inside of the cabinet body;

and S3, detecting the humidity and the salt content of the air in the cabinet body in real time, and if the detected humidity and the salt content are both in the respective corresponding preset ranges, sending a second control signal to the vacuum-pumping machine and the air purifier to control the vacuum-pumping machine and the air purifier to stop running.

2. The method for controlling the invisible bed, according to claim 1, wherein the step S3 further comprises:

and timing the running time of the air purifier to obtain corresponding timing time, and if the timing time reaches a preset threshold value, sending a second control signal to the air purifier to stop the air purifier from running.

3. The method for controlling an invisible bed according to claim 1, wherein step S1 is preceded by:

the controller judges whether input data collected by a collecting terminal is received or not; the two or more invisible beds are arranged in the same cabin, and each invisible bed is provided with an acquisition terminal;

and if the condition is met, sending an accommodating control signal to a controlled end of the air cylinder to control the switching of the invisible bed between the accommodating state and the unfolding state.

4. The control method of the invisible bed according to claim 3, wherein if the input data is face data, the preset threshold data is preset face threshold data;

the method for comparing the input data with the preset threshold value data comprises the following steps:

and calculating the matching degree of the face data and the preset face threshold value data to obtain a corresponding face matching value, wherein if the face matching value is greater than a first preset threshold value, the comparison result is in accordance with the condition.

5. The method for controlling an invisible bed according to claim 3, wherein if the input data is voice data, the preset threshold data is preset voice threshold data; the preset voice threshold data comprise preset character threshold data and preset voiceprint threshold data;

the method for comparing the input data with the preset threshold value data comprises the following steps:

analyzing the voice data to obtain corresponding text data and voiceprint data;

calculating the matching degree of the character data and preset character threshold data to obtain a corresponding character matching value; meanwhile, calculating the matching degree of the voiceprint data and preset voiceprint threshold data to obtain a corresponding voiceprint matching value;

and if the character matching value is greater than a second preset threshold value and the voiceprint matching value is greater than a third preset threshold value, the comparison result is in accordance with the condition.

6. The method for controlling the invisible bed according to claim 3, wherein if the input data is digital cipher data, the preset threshold data is preset digital cipher data;

the method for comparing the input data with the preset threshold value data comprises the following steps:

and judging whether the digital password data is the same as the preset digital password data or not, if so, judging that the comparison result is in accordance with the condition.

7. The method for controlling the invisible bed according to claim 3, wherein if the input data is fingerprint data, the preset threshold data is preset fingerprint data;

the method for comparing the input data with the preset threshold value data comprises the following steps:

and calculating the matching degree of the fingerprint data and preset fingerprint data, and if the calculated matching degree is greater than a fourth preset threshold, determining that the comparison result is in accordance with the condition.

8. A control system for an invisible bed, comprising one or more processors and a memory, the memory storing a program which, when executed by the processors, is capable of carrying out all the steps of a method of controlling an invisible bed as claimed in any one of claims 1 to 7.

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